Effect of tapering internal coronal walls on fracture resistance of anterior teeth treated with cast post and core: In vitro study.

Journal of dental biomechanics Pub Date : 2014-08-12 eCollection Date: 2014-01-01 DOI:10.1177/1758736014547550

Loubna Shamseddine, Rita Eid, Fodda Homsy, Hasan Elhusseini

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引用次数: 3

Abstract

When fabricating indirect post and core, internal coronal walls are tapered to remove undercuts and allow a better adaptation. To evaluate the fracture strength of anterior tooth reconstructed with post and core and crowned, with two different taper of internal coronal walls, 6° and 30° to the long axis, two groups of 30 clear plastic analogues simulating endodontically treated maxillary central incisors were prepared. The analogues crowned were subjected to a compressive load with a 1-kN cell at a crosshead speed of 0.05 mm/min at 130° to the long axis until fracture occurred. Data were analyzed by Lillifors and Mann-Whitney tests. Mean failure loads for the groups were as follows: group I 1038.69 N (standard deviation ±243.52 N) and group II 1231.86 N (standard deviation ±368.76 N). Statistical tests showed significant difference between groups (p = 0.0010 < 0.01). Increasing the taper of internal coronal walls appears to enhance the fracture resistance of anterior maxillary teeth post and core reconstructed.

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锥形内冠状壁对铸造桩核治疗前牙抗骨折能力的影响。

当制造间接桩和芯时，内部冠状壁变细以消除切口，并允许更好的适应。为评价柱核冠重建前牙的断裂强度，制作两组30个透明塑料模拟牙髓治疗的上颌中切牙，内冠壁与长轴的锥度分别为6°和30°。在与长轴130°的方向上，以0.05 mm/min的十字速度承受1 kn的压缩载荷，直到发生断裂。数据采用利利福斯和曼-惠特尼检验进行分析。各组平均失效载荷为:ⅰ组1038.69 N(标准差±243.52 N)，ⅱ组1231.86 N(标准差±368.76 N)。经统计学检验，组间差异有统计学意义(p = 0.0010)

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Journal of dental biomechanics

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